Power line communication technology based on morphological filtering for machine-to-machine applications

Power line communication technology based on morphological filtering for machine-to-machine applications

This work proposes a communication system based on G3-PLC (G3 - Power Line Communication) technology and a Morphological Filter (MF) for the transmission of analogue Generic Reference Waveforms (GRW) in Machine-to-Machine (M2M) applications (e.g., power control of wind turbines). The presented propo...

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Bibliographic Details
Published in:Computers & electrical engineering Vol. 93; p. 107254
Main Authors: Pereira, Samuel C., Casella, Ivan R.S., Capovilla, Carlos E., Sguarezi Filho, Alfeu J., Costa, Fabiano F.
Format: Journal Article
Language:English
Published: Amsterdam Elsevier Ltd 01-07-2021
Elsevier BV
Subjects:
Communication
Communications systems
G3-PLC
M2M
Machine-to-machine communications
Morphological filter
Morphological filters
Morphology
PLC
Power control
Power line communications
Power lines
Programmable logic controllers
Waveforms
Wind turbines
Morphological filter
Machine-to-machine communications
M2M
G3-PLC
Power line communications
PLC
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Description
Summary:This work proposes a communication system based on G3-PLC (G3 - Power Line Communication) technology and a Morphological Filter (MF) for the transmission of analogue Generic Reference Waveforms (GRW) in Machine-to-Machine (M2M) applications (e.g., power control of wind turbines). The presented proposal allows to reduce the system latency without compromising the integrity of the GRW, even in very severe operating conditions, through the use of a MF and the deactivation of the G3-PLC retransmission protocol. Computer simulations were performed considering a very accurate and representative model of the physical layer of the G3-PLC and the communication channel and the results obtained demonstrated the efficiency of the proposed system in recovering the transmitted GRW without the need for retransmissions, reducing considerably the system latency, and making possible real-time M2M communications. [Display omitted] •A novel approach to improve reliability and reduce latency of M2M communications.•Morphological filtering of analogue signals transmitted by G3-PLC-based M2M systems.•System performance simulation analysis based on BER, range and latency.•Use of a realistic multipath channel model with background and impulsive noise.
ISSN:0045-7906
1879-0755
DOI:10.1016/j.compeleceng.2021.107254